CN104148777B

CN104148777B - Realize the method and system that corrugated plate welding track data smoothing processes

Info

Publication number: CN104148777B
Application number: CN201410406547.1A
Authority: CN
Inventors: 孔令磊; 詹明波; 孙玉财; 葛尧; 汤同奎; 郑之开
Original assignee: Shanghai Weihong Electronic Technology Ltd
Current assignee: Shanghai Weihong Electronic Technology Ltd
Priority date: 2014-08-18
Filing date: 2014-08-18
Publication date: 2016-08-31
Anticipated expiration: 2034-08-18
Also published as: CN104148777A

Abstract

The present invention relates to a kind of method realizing the process of corrugated plate welding track data smoothing, process including welding track data acquisition and welding track data smoothing, the invention still further relates to a kind of system realizing the process of corrugated plate welding track data smoothing, this system includes that microprocessor and photoelectric sensor, described microprocessor include welding track smoothing module, compensating module and data memory module.Use the present invention's to realize the method and system that corrugated plate welding track data smoothing processes, can be in the gatherer process of corrugated plate welding track data, process the data collected in real time to process, control welding gun motion eventually through these information, in the case of angle of welding gun is fixing, realizes automatic welding, reduce the impact of deformation of generating heat in welding process, improve welding efficiency and quality, cost-effective, and transplantability is strong, has wider application scope.

Description

Realize the method and system that corrugated plate welding track data smoothing processes

Technical field

The present invention relates to the welding technology field of corrugated plating, particularly relate to the field of corrugated plating welding data smoothing processing, specifically Refer to a kind of method and system realizing the process of corrugated plate welding track data smoothing.

Background technology

At present, in automatic Arc Welding, more and more important for the sensor technology of weld joint tracking, occur in that successively various not With the sensor of form, wherein touch sensor, arc sensor and optical pickocff application are the most universal.Contact-sensing Device is by the change in location that weld seam change transitions is guide rod or guide wheel, and is converted into the signal of telecommunication, and this sensor is due to stable performance, one-tenth This is cheap, is the most once used widely, but due to tracking accuracy and the restriction of speed, has been not suitable in high precision, at a high speed The welding field of degree；Arc sensor, with the parameter of electric arc itself for tracking target, can change by real time reaction weld seam, but detection essence Degree is easily affected by mode of metal transfer, splashing in welding process, especially to the docking of thin plate weldment and the welding of lap joint In, the more difficult grasp of application process；Optical pickocff is to obtain the spies such as abundant information, degree of accuracy is high, detection range is wide by contrast Point, gradually causes the attention of people, and has obtained applying the most widely in welding production field, and this is the reality of Automation of Welding Now provide advantage.Optical pickocff is applied more for laser sensor, infrared sensor, vision sensor etc., Use modernization image sensing such as CCD (Charge-coupled Device, charge coupled cell) video camera, infrared thermoviewer etc. Equipment and intelligentized image processing method, provide guarantee for accurately obtaining weld information, further ensure that welding process Stability and reliability.

Additionally, in CCD sampling process, due to the impact of site environment, the position of the pad collected has beats, need To observe weld seam at any time, and adjust welding parameter or welding torch position, so, container corrugated plate special welding machine does not reaches completely Automatic welding, in order to improve production efficiency, reduce the impact of the deformation data for gathering, Wo Menxu in welding process simultaneously To process the corrugated plating information collected in real time, but, the demand processed in real time causes the path length every time processed the least, The geometry information that possibly directly cannot obtain corrugated plating from one section of independent data processes.

Summary of the invention

It is an object of the invention to the shortcoming overcoming above-mentioned prior art, it is provided that the segment corrugated plating data that a kind of process collects Constructing the welding track of welding gun, and be smoothed compensating with gap, the track making welding gun move meets corrugated plating Welder The requirement of skill, realizes automatic welding in the case of angle of welding gun is fixing, reduces the impact of deformation of generating heat in welding process, improves Welding quality and the method and system realizing the process of corrugated plate welding track data smoothing of efficiency.

To achieve these goals, the method and system realizing the process of corrugated plate welding track data smoothing of the present invention have as follows Constitute:

This realizes the method that corrugated plate welding track data smoothing processes, and it is mainly characterized by, and described method comprises the following steps:

(1) the welding track data of each collection point during photoelectric sensor gathers corrugated plating, and described welding track data are delayed Deposit to microprocessor；

(2) microprocessor described in sets treatment radius, and with described treatment radius, described welding track data is divided into number Individual data segment；

(3) microprocessor described in connects two end points in a data segment and an intermediate point forms triangle, and according to this The amount that the coordinate data of two end points of data segment is relevant with the area of the coordinate data of intermediate point calculating triangle；

(4) above-mentioned steps (3) is returned, until limited intermediate point of this data segment takes and be calculated several triangle area Relevant amount；

(5) microprocessor described in measures intermediate value to what described several triangle areas were correlated with, and according to described gore Long-pending relevant amount intermediate value, the coordinate data of two end points of this data segment and the coordinate data of an intermediate point calculate in the middle of this The smooth coordinate data of point；

(6) above-mentioned steps (5) is returned, until limited intermediate point of this data segment takes and be calculated the flat of several intermediate point Sliding coordinate data；

(7) above-mentioned steps (3) is returned, until the intermediate point of all data segments is all calculated the smooth coordinate data of correspondence.

Further, the coordinate data of according to this data segment two described end points and the coordinate data of an intermediate point calculate three The amount that the area of dihedral is relevant, particularly as follows:

Area=(x-x1) (y2-y1)-(y-y1) (x2-x1)；

Wherein, Area is the amount that the area of triangle is relevant, and Area absolute value is 2 times of the area value of triangle, Area symbol Represent intermediate point relative to the position of the line segment of two end points, when Area be on the occasion of time, expression point midway is in the line of two end points Section lower section, when Area is negative value, represent point midway in the top of the line segment of two end points, (x1, y1) and (x2, Y2) being the coordinate of two end points of this data segment, (x y) is the coordinate of an intermediate point of this data segment；

Further, the coordinate of two end points of the described amount intermediate value relevant according to the triangle area obtained, this data segment The coordinate data of data and an intermediate point calculates the smooth coordinate data of this intermediate point, particularly as follows:

x 0 = \frac{m e d i a n A r e a + [x 1 \cdot {(y 2 - y 1)}^{2} + x 3 \cdot {(x 2 - x 1)}^{2} + (y 2 - y 1) \cdot (y 3 - y 1) \cdot (x 2 - x 1)] / (y 2 - y 1)}{(y 2 - y 1) + {(x 2 - x 1)}^{2} / (y 2 - y 1)};

y 0 = y 3 - \frac{x 2 - x 1}{y 2 - y 1} \cdot (x 0 - x 3);

Wherein, medianArea is the amount intermediate value that triangle area is relevant, and (x1, y1) and (x2, y2) is the two of this data segment The coordinate of individual end points, (x3, y3) is the coordinate of an intermediate point of this data segment, and (x0, y0) is the smooth seat of this intermediate point Mark；

Further, between described step (6) and (7), further comprising the steps of:

(6.1) microprocessor described in is by the ordinate of orthogonal axes data of intermediate points several in this data segment and corresponding smooth ordinate of orthogonal axes Data contrast, and judge whether the ordinate of orthogonal axes data of continuous multiple intermediate point and the smooth vertical of corresponding intermediate point The difference of axial coordinate data exceedes the default value that microprocessor sets；

(6.2) if it is judged that be that the ordinate of orthogonal axes data that there is continuous multiple intermediate point are indulged with the smooth of corresponding intermediate point The difference of axial coordinate data exceedes the default value that microprocessor sets, then continue step (6.3), otherwise continue step (7)；

(6.3) the continuous multiple intermediate points described in microprocessor deletion described in.

Further, between described step (1) and (2), comprise the following steps:

(1.1) microprocessor described in carries out pretreatment to the welding track data of described photoelectric sensor collection.

Further, described microprocessor carries out pretreatment to the welding track data of described photoelectric sensor collection, bag Include following steps:

(1.1.1) whether the microprocessor described in is by existing abnormity point in the collection point described in the judgement of limit filtration method；

(1.1.2) if it is judged that for whether described collection point exists abnormity point, then continue step (1.3), otherwise continue Continuous step (2)；

(1.1.3) abnormity point described in microprocessor deletion described in；

(1.1.4) microprocessor described in carries out median filter process to described welding track data.

Further, between described step (1) and (2), further comprising the steps of:

(1.2) microprocessor described in obtains the shape facility of corrugated plating according to described welding track data.

Further, after described step (7), comprise the following steps:

(8) microprocessor described according to the smooth coordinate data of described collection point and the shape facility of described collection point to institute The collection point stated carries out track compensation, gap compensates and velocity compensation.

Further, described gap compensates and includes according to the compensation of the welding gun track longitudinal axis at this collection point and the motion of welding gun The compensation of speed.

Further, between described step (7) and (8), comprise the following steps:

(7.1) microprocessor described in caches the end points of described several data segments successively；

(7.2) microprocessor described in sets filter radius, and takes other end points in filter radius with each end points for starting point The intermediate value and the value filtering that is averaged that calculate this end points process.

Further, after described step (8), further comprising the steps of:

(9) microprocessor described in carries out overall smoothing processing to the collection point after compensating.

Further, described microprocessor carries out overall smoothing processing to the collection point after compensating, and comprises the following steps:

(9.1) microprocessor described in sets value radius, and take one compensate after collection point as impact point,

(9.2) microprocessor described in takes adopting after other of corresponding length compensates with value radius for length before and after this impact point Collection point；

(9.3) whether the impact point described in microprocessor judges described in and the collection point after these compensation exist flex point；

(9.4) if it is judged that for the collection point after described impact point and these compensation exists flex point, then continue step (9.5) step (9.6), is otherwise continued；

(9.5) microprocessor described in is according to the X direction weight of described impact point and putting down of Y-direction this impact point of weights resetting Sliding coordinate data；

(9.6) microprocessor described in described impact point is compensated with described these after smooth number of coordinates corresponding to collection point According to averaging, and as the smooth coordinate data of described impact point.

Further, described X direction weight and Y-direction weight calculate according to pascal's triangle.

Additionally, the present invention also provides for a kind of system realizing the process of corrugated plate welding track data smoothing, described system includes micro- Processor and photoelectric sensor, described microprocessor includes:

Welding track smoothing module, in order to be smoothed described welding track data；

Compensating module, in order to the smooth coordinate data through smoothing processing to carry out track compensation, gap compensates and velocity compensation；

Data memory module, in order to cache the welding track data that described photoelectric sensor gathers, and caches and provides described Welding track smoothing module and compensating module need process data.

Have employed the method and system realizing the process of corrugated plate welding track data smoothing in the present invention, can weld at corrugated plating In the gatherer process of track data, process the data collected in real time and process, control welding gun motion eventually through these information, In the case of angle of welding gun is fixing, realizes automatic welding, reduces the impact of deformation of generating heat in welding process, efficiently complete automatic welding Termination process, improves welder's weld job site environment, reduces workman and directly participates in welding process, it is to avoid the mistake that manual operation causes Difference, improves welding efficiency and quality, cost-effective, and transplantability is strong, has wide range of applications.

Accompanying drawing explanation

Fig. 1 is the method realizing the process of corrugated plate welding track data smoothing of the present invention.

Fig. 2 is the structural representation of data structure DataList for processing little segment data of the present invention.

Fig. 3 is the flow chart of the method specific embodiment in the application of the present invention.

Detailed description of the invention

In order to more clearly describe the technology contents of the present invention, conduct further description below in conjunction with specific embodiment.

Referring to Fig. 1, in one embodiment, this method realizing the process of corrugated plate welding track data smoothing includes following Step:

In a preferred embodiment, the coordinate data of according to this data segment two described end points and an intermediate point Coordinate data calculates the amount that the area of triangle is correlated with, particularly as follows:

Area=(x-x1) (y2-y1)-(y-y1) (x2-x1)；

In a kind of preferred embodiment, the described amount intermediate value relevant according to the triangle area obtained, this data segment The coordinate data of the coordinate data of two end points and an intermediate point calculates the smooth coordinate data of this intermediate point, particularly as follows:

x 0 = \frac{m e d i a n A r e a + [x 1 \cdot {(y 2 - y 1)}^{2} + x 3 \cdot {(x 2 - x 1)}^{2} + (y 2 - y 1) \cdot (y 3 - y 1) \cdot (x 2 - x 1)] / (y 2 - y 1)}{(y 2 - y 1) + {(x 2 - x 1)}^{2} / (y 2 - y 1)};

y 0 = y 3 - \frac{x 2 - x 1}{y 2 - y 1} \cdot (x 0 - x 3);

In a preferred embodiment, between described step (6) and (7), further comprising the steps of:

In a preferred embodiment, between described step (1) and (2), comprise the following steps:

In a kind of preferred embodiment, the welding track data that described photoelectric sensor is gathered by described microprocessor Carry out pretreatment, comprise the following steps:

(1.1.3) abnormity point described in microprocessor deletion described in；

In a preferred embodiment, between described step (1) and (2), further comprising the steps of:

In a preferred embodiment, after described step (7), comprise the following steps:

In a kind of preferred embodiment, described gap compensates and includes according to the benefit of the welding gun track longitudinal axis at this collection point Repay the compensation of movement velocity with welding gun.

In a kind of preferred embodiment, between described step (7) and (8), comprise the following steps:

In a kind of preferred embodiment, after described step (8), further comprising the steps of:

In a kind of preferred embodiment, described microprocessor carries out overall smoothing processing, bag to the collection point after compensating Include following steps:

In a kind of preferred embodiment, described X direction weight and Y-direction weight calculate according to pascal's triangle.

In a particular application, the technical problem to be solved in the present invention is: during machine tool motion, processes CCD module in real time and adopts The sequence of the discrete point that collection arrives, controls welding gun motion, and the track making welding gun move meets the requirement of corrugated plating welding procedure.

Realizing processing the segment corrugated plating information that CCD collects in real time in welding process, its principle is: provide a kind of data knot Structure, it is possible to call data of the preceding paragraph or a part of data put in next section according to needing of processing and process together, by section Get up with the data cube computation of section.The point collected is put in this data structure, carries out the smooth and process of welding procedure, Obtain welding gun movement locus continuous, smooth eventually.

Therefore, in order to solve the problems referred to above, a specific embodiment of the present invention is as follows:

1. build data structure Datalist being easy to process little segment data, as shown in Figure 2；

Wherein, the data structure DataList main contents processing little segment information are as follows:

A) be cached to next section process data list (MotionCacheLength), its length be cached at next section The number of the point of reason is corresponding, and this is owing to, processing each some when, being required for the point used below, so will be by every The point at one data segment end is put into the head of next data segment and processes；

B) be attached to the raw data list (AttachedHeadLength) of next data segment head, its length be attached to The number of the point of next data segment is corresponding, and this is to also need to obtain current some data above, by this owing to some process The original value processed a little is copied in next section by attribute；

The list (_ motionCodes) of the movement instruction c) processed, there is the movement instruction to corresponding process each collection point, Realize the caching of point by this list and be attached to next section.

2. the discrete point of the segment of Real-time Collection is smoothed, as shown in Figure 3 according to the shape facility of corrugated plating；

2.1) pending collection point is carried out pretreatment, removes the abnormity point in sampling set, carry out median smoothing afterwards, Specifically include following steps:

2.1.1) suppressing exception point (limit filtration method), by LeaseDistanceProcess class, sets an inquiry Radius R and ultimate range S, the number of the point that this process is cached to next data segment is R.Call such Process () letter Number, travels through the data of the pending sampled point sampled in set, from the beginning of the sampled point A processed, takes radius R length backward Point, finds out the some B that inside these points, distance A is nearest, if A and B distance is less than S, then inciting somebody to action a some B is next point, no Then, it is believed that the point in addition to A is all abnormity point, current some A is processed as next one point, delete in sampling set all Abnormity point；

2.1.2) intermediate value process (median filtering method) is by MiddleValueProcess class, sets filter radius r, slow Depositing and being attached to the some number of next section is all r.Call such Process () function, travel through 2.1.1) sampling that processed Point, for each point, takes the data in the range of before and after r, and the data of tri-axles of X, Y, Z are stored in a list respectively MiddleList, is ranked up, and takes intermediate value Xm, Ym, Zm value as this X, Y, Z；

2.2) judge the shape facility of corrugated plating, by the situation of change of slope around each sampled point, find out corrugated plating Corner point, and on this basis, track is divided into upward slope, crest, descending, four parts of trough, particularly as follows:

By CornerProcess class, setting a radius R ', the point that this process caches and is attached in lower one piece of data is all For R '.Sampling set after traversal 2.1.2 process, for the point outside 1.5 radius R ' length ranges of sampling set syncephalon tail, Take the data around it, in forward and backward three radius region.For the data in each region, we are from the beginning of first point, Every a number of some line, obtaining slope, the when of linking last point in this region, that obtains in the range of this is oblique Rate meansigma methods K.Calculate trizonal Slope relationship afterwards, the slope K 1 of current rear region, K2 meansigma methods close in Between in zone leveling slope K 3 and former and later two region slopes K1 and K2 one relatively big, one less when, it is believed that when Front point is corner point.The IsCorner attribute in Data is set with this.According to the relation of K1K2, after determining corner point Shelving, Data.CornerStyle value is set；

2.3) this sampled point is carried out welding track data smoothing process, particularly as follows:

By MedianBySlopeProcess class, set treatment radius r ', this process caches and is attached to the point of next section Number is r '.Point (now these are with the information of shelving) in traversal 2.1.1 set, gathers radius r ' length end to end The point of number does not processes, and remaining point takes the data before and after it in the range of radius length, connect the some P1 from beginning to end that fetched data (x1, Y1) and P2 (x2, y2), as benchmark line segment.For other some P, (x, y), by them respectively with benchmark line segment end points P1 Connect with P2, form triangle, according to the amount formula that the area of the inner product of vectors following triangle of acquisition is relevant:

Area=(x-x1) (y2-y1)-(y-y1) (x2-x1)；

Measuring intermediate value to what area was correlated with, P1, P2 are put in intermediate value medianArea of the amount being then correlated with according to area, first place The position that position p3 (x3, the y3) calculating of position and current point makes new advances is as the position of current point:

x 0 = \frac{m e d i a n A r e a + [x 1 \cdot {(y 2 - y 1)}^{2} + x 3 \cdot {(x 2 - x 1)}^{2} + (y 2 - y 1) \cdot (y 3 - y 1) \cdot (x 2 - x 1)] / (y 2 - y 1)}{(y 2 - y 1) + {(x 2 - x 1)}^{2} / (y 2 - y 1)};

y 0 = y 3 - \frac{x 2 - x 1}{y 2 - y 1} \cdot (x 0 - x 3);

Data.X=x0 is set；Data.Y=y0.The value of Y-axis will put after processing contrasts with the value of Y-axis before treatment, as The value of the Y-axis of the most continuous multiple point has all done bigger adjustment, then delete these points, repeats 2.3) operation；

2.4) the welding track data of individual processing data segment sampled point end to end, particularly as follows:

Need to cache a part of head and tail data, the pre-treatment that this part data length is processing little segment data when The sum of middle buffer.For these points, only adjust the position of XYZ, it is not necessary to judge shape information.It is 2 to each point with radius The value of X, Y, Z axis carry out intermediate value and average value filtering.The most each remaining two points are respectively with the point of they back and fronts Relatively, if the value difference of Y and Z axis is away from relatively big, then these points are removed.

3. according to corrugated plating welding procedure, corrugated plating relevant position is carried out the compensation of track, gap and speed, as shown in Figure 3；

3.1) smooth gap value is obtained, particularly as follows:

Every 20 pads (i.e. sampled point after step process before) one group, carry out median smoothing to gap value, Go out intermediate value _ width, and the WeldJointWidth attribute of these 20 points is set to _ width；

3.2) carrying out gap compensation according to the shelving at gap value and place, gap, wherein, gap compensates and includes according to Butt welding gun The compensation of the movement velocity of welding gun at the compensation of track Y-axis and this point, particularly as follows:

Gap value is divided into by size 5 intervals, in each interval, is respectively provided with the rail of upward slope, crest, descending, trough Mark and velocity compensated value Δ y and Δ f, arrange the Y+=Δ y of each point；Feed+=Δ f；

3.3) carry out speed and track according to shelving to compensate, owing to welding gun is fixing, welding gun shelving different from corrugated plating institute The angle become is in change, it is therefore desirable to different shelvings carries out the compensation of track respectively, specifically on the basis of the track after smooth For:

Upward slope, crest, descending, the entire compensation Δ Y of trough and Δ F, Y+=Δ Y are set；；Feed+=Δ F；

3.4) track is carried out overall smoothing.Value radius R is set in AverageProcess ", pending set Radius R end to end " point of length number do not processes, travels through remaining point, take R before and after each point " individual point, in this scope In, if institute's IsCorner attribute a little be all false, then the direct value to X, Y, Z axis average reset currently put X, Y, the value of Z axis.Otherwise set each some X, the weight of Y-axis data, wherein, weight by arranging with pascal's triangle, I.e. draw the pascal's triangle array of corresponding length according to R, as the weighted value of need point to be processed, be multiplied by by currency The mode of weight resets the value of the X, Y, Z axis of pad.

In this description, the present invention is described with reference to its specific embodiment.But it is clear that still may be made that various Amendment and conversion are without departing from the spirit and scope of the present invention.Therefore, specification and drawings is considered as illustrative rather than limits Property processed.

Claims

1. one kind realizes the method that corrugated plate welding track data smoothing processes, it is characterised in that described method includes:

(7) above-mentioned steps (3) is returned, until the intermediate point of all data segments is all calculated the smooth coordinate data of correspondence；

The coordinate data of according to this data segment two described end points and the coordinate data of an intermediate point calculate the area of triangle Relevant amount, particularly as follows:

Area=(x-x1) (y2-y1)-(y-y1) (x2-x1)；

Wherein, Area is the amount that the area of triangle is relevant, and Area absolute value is 2 times of the area value of triangle, Area symbol Represent intermediate point relative to the position of the line segment of two end points, when Area be on the occasion of time, expression point midway is in the line of two end points Section lower section, when Area is negative value, represent point midway in the top of the line segment of two end points, (x1, y1) and (x2, Y2) being the coordinate of two end points of this data segment, (x y) is the coordinate of an intermediate point of this data segment.

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 1, it is characterised in that described The amount intermediate value relevant according to the triangle area obtained, the coordinate data of two end points of this data segment and the seat of an intermediate point Mark data calculate the smooth coordinate data of this intermediate point, particularly as follows:

x 0 = \frac{m e d i a n A r e a + [x 1 \cdot {(y 2 - y 1)}^{2} + x 3 \cdot {(x 2 - x 1)}^{2} + (y 2 - y 1) \cdot (y 3 - y 1) \cdot (x 2 - x 1)] / (y 2 - y 1)}{(y 2 - y 1) + {(x 2 - x 1)}^{2} / (y 2 - y 1)};

y 0 = y 3 - \frac{x 2 - x 1}{y 2 - y 1} \cdot (x 0 - x 3);

Wherein, medianArea is the amount intermediate value that triangle area is relevant, and (x1, y1) and (x2, y2) is the two of this data segment The coordinate of individual end points, (x3, y3) is the coordinate of an intermediate point of this data segment, and (x0, y0) is the smooth seat of this intermediate point Mark.

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 1, it is characterised in that described Step (6) and (7) between, further comprising the steps of:

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 1, it is characterised in that described Step (1) and (2) between, comprise the following steps:

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 4, it is characterised in that described Microprocessor the welding track data of described photoelectric sensor collection are carried out pretreatment, comprise the following steps:

(1.1.3) abnormity point described in microprocessor deletion described in；

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 1, it is characterised in that described Step (1) and (2) between, further comprising the steps of:

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 6, it is characterised in that described Step (7) after, comprise the following steps:

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 7, it is characterised in that described Gap compensate the compensation included according to the movement velocity to the compensation of the welding gun track longitudinal axis at this collection point and welding gun.

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 7, it is characterised in that described Step (8) after, further comprising the steps of:

The method realizing the process of corrugated plate welding track data smoothing the most according to claim 9, it is characterised in that institute The microprocessor stated carries out overall smoothing processing to the collection point after compensating, and comprises the following steps:

11. methods realizing the process of corrugated plate welding track data smoothing according to claim 10, it is characterised in that institute X direction weight and the Y-direction weight stated calculate according to pascal's triangle.

12. 1 kinds realize what corrugated plate welding track data smoothing processed based on the method according to any one of claim 1 to 11 System, described system includes microprocessor and photoelectric sensor, it is characterised in that described microprocessor includes: